CN201918358U - Microwave plasma generator and proton transfer ionization mass-spectrometer - Google Patents
Microwave plasma generator and proton transfer ionization mass-spectrometer Download PDFInfo
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- CN201918358U CN201918358U CN2011200147879U CN201120014787U CN201918358U CN 201918358 U CN201918358 U CN 201918358U CN 2011200147879 U CN2011200147879 U CN 2011200147879U CN 201120014787 U CN201120014787 U CN 201120014787U CN 201918358 U CN201918358 U CN 201918358U
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Abstract
A microwave plasma generator for a proton transfer ionization mass-spectrometer comprises a microwave generator, a microwave cavity, an end cover, a tuning plug, a microwave coupling/regulating component and a discharge tube, wherein the microwave cavity, the end cover, the tuning plug and the microwave coupling/regulating component are made of metallic materials; and the discharge tube is made of insulating material. The proton transfer ionization mass-spectrometer based on a microwave plasma source comprises a water vapor supply system for supplying water vapor, a microwave plasma generator for enabling the water vapor to generate H3O cations, a drift tube for enabling molecules of an analyte and the H3O cations to generate a proton transfer reaction, a mass-spectrometer for analyzing and detecting, and a vacuum regulating/controlling system, wherein a water vapor delivery pipe of the water vapor supply system is connected with the discharge tube of the plasma generator; the discharge tube of the microwave plasma generator is connected with the drift tube via a first connector; and a sample introduction port is formed on the drift tube and is connected with the mass-spectrometer via a second connector.
Description
Technical field
The utility model belongs to proton translocation MALDI-MS analysis field, particularly a kind of microwave plasma generator and with the proton translocation ionization mass spectrometer of microwave plasma as ionization source.
Background technology
VOC (be called for short VOCs) is the major pollutants in atmosphere, the water and soil earth environment, takes in VOCs for a long time and has carcinogenic, teratogenesis, mutagenic danger.In addition, thereby VOCs also can participate in the abominable variation that photochemical reaction causes weather in the air, as the appearance of acid rain, photochemical fog, organic aerosol, greenhouse effect.Therefore the high-sensitivity detection of trace VOCs is the problem of people's special concern always in atmosphere, the water and soil earth.Also contain a large amount of VOCs in the food,, can understand the composition and the quality of food by analyzing the volatile matter of food.VOCs still is the important component in the human body breath, and these VOCs mainly are that whether the existence of some VOCs usually has confidential relation with some disease with content by the metabolic processes generation of human body.By the gas that the analyst breathes out, can understand the metabolic processes of human body, so that disease is carried out early diagnosis.
At present, the main means of detection VOCs are gas chromatography-mass spectrum (GC-MS) method, liquid chromatography-mass spectrography (HPLC-MS) method.These conventional measuring techniques are being brought into play important effect aspect the accurate mensuration trace VOCs always.But owing to relate to chromatogram and electron impact ionization, thereby they also exist defective: sample collecting, concentration extraction and separating makes that to measure effort consuming time again; Electron impact ionization can form the different kinds of ions fragment, make the mass spectrogram complexity, to analyze difficulty big.Proton-Transfer Reactions mass spectrum (proton-transfer-reaction mass spectrometry, abbreviation PTR-MS) method but can overcome above-mentioned shortcoming, proton translocation is a single ionic with various VOCs soft ionizations, there is not fragment ion, be easy to mass spectrum identification, and be that absolute magnitude is measured, do not need to demarcate, thereby measuring speed fast (second-time), highly sensitive (10ppt).
The detection that the PTR-MS method is used for VOCs is nearest more than ten years new developing technology, and the various countries scholar has done a large amount of improvement to the PTR-MS mass spectrometer on the basis of its basic principle.Lindinger C utilizes chromatography-mass spectroscopy (GC-MS) and PTR-MS connection in series-parallel and De Gouw J to utilize chromatogram (GC) to be connected with PTR-MS and uses the difficulty that has solved the existence aspect the differentiation isomer of traditional PTR-MS technology, but this multiple techniques has prolonged analysis time.Prazeller, another kind of proton translocation ion trap mass spectrometry (PIT-MS) technology that development of practical such as P. are novel, this technology has higher Analysis and Identification ability, can distinguish isomer and isobary.In recent years, scientists has proposed Proton-Transfer Reactions flight time mass spectrum (PTR-TOF-MS) technology, find that it has very high detection sensitivity and mass resolution, can in wide mass range, carry out detecting in a plurality of analytes and well distinguishing isomer.Above-mentioned improvement is far from being enough and only improve mass analyzer for improving the mass spectrometric detection resolution of PTR-MS all at mass spectrometric mass analyzer.
Hollow cathode discharge is the ionization means of generally using in the PTR-MS mass spectrometer, and in addition, glow discharge, plane direct current electrode discharge also have been used for the PTR-MS mass spectrometer and have produced plasma as the ionization means.But these three kinds of plasma sources all belong to the discharge source of in-built electrical polar form because hollow cathode discharge, glow discharge and plane DC electrode are discharged, in use, phenomenons such as, jitter aging because of the heat damage meeting generating electrodes burn into anodizing of the bombardment of high energy particle and plasma, electrode is corroded and has not only directly limited the useful life of plasma source, also can become a kind of pollutant sources causes the spectrum peak to disturb, cause spectrum unscrambling complicated, even draw error message.
The radio frequency discharge source can overcome the problem that in-built electrical polar form discharge source exists, it is the Proton-Transfer Reactions mass spectrometer of ionization source that Hanson etc. have developed the isotopic ion source, utilize low-level α particle emitter that α particle ionizing water steam takes place and produce proton hydrate (seeing D.R.Hanson et al, 2003).Though the isotopic ion source is a kind of electrodless discharge source, the ionizing efficiency height can cause ionized many times, and the ion flow long-term stability is polluted for a short time, and the equipment of this discharge source will be worked under higher voltage and there is potential safety hazard in the use of radioactive substance.Therefore, the new ionization source of exploitation is significant for the detection resolution of further raising proton translocation ionization mass spectrometer.
Summary of the invention
The purpose of this utility model is to overcome the deficiencies in the prior art, provide a kind of microwave plasma generator that is used for the proton translocation ionization mass spectrometer and based on the proton translocation ionization mass spectrometer of microwave plasma source, so that prolong the useful life of instrument plasma source, the operating power of lowering apparatus plasma source, the detection resolution and the safety in utilization of raising instrument.
The technical solution of the utility model: the plasma source to existing proton translocation ionization mass spectrometer improves, and replaces the discharge source or the isotopic ion source of in-built electrical polar form with microwave plasma source.
The microwave plasma generator that is used for the proton translocation ionization mass spectrometer described in the utility model comprises microwave generator, the microwave cavity that metal material is made, end cap, tuning plug and microwave coupling adjusting part, the discharge tube that insulating material is made; Be symmetrically arranged with two grooves on the chamber wall of microwave cavity upper end, be symmetrically arranged with two grooves on the tegmental wall of end cap lower end, be installed in the upper end of microwave cavity when end cap after, described four groove combination become two holes that are complementary with discharge tube external shape and size, and described discharge tube passes described two holes and is fixed on the microwave cavity; Microwave generator is connected with the microwave energy input port that is arranged on the microwave cavity sidewall by cable, microwave is coupled to microwave cavity keeps the discharge tube continuous discharge, and microwave coupling adjusting part is installed in the sidewall of microwave cavity; Tuning plug is a screw rod, is installed on the microwave cavity diapire and stretches in the microwave cavity by the screw that is provided with on the microwave cavity diapire.
In the above-mentioned microwave plasma generator, microwave coupling adjusting part has multiple version, for example telescopic structure, screw rod, nut combinations structure etc., the preferred screw rod of the utility model, nut combinations structure.Described microwave coupling adjusting part is made up of coupling adjusting screw(rod) and coupling adjusting nut, and the coupling adjusting screw(rod) is connected with the microwave cavity sidewall, and with the concentricity line of microwave energy input port, the adjusting nut that is coupled is installed on the adjusting screw(rod) that is coupled.
In the above-mentioned microwave plasma generator, end cap is clamping with the connected mode of microwave cavity or is threaded, so that dismounting and assembling.
In the above-mentioned microwave plasma generator, make a kind of in the metal material preferably copper of microwave cavity, end cap, tuning plug and microwave coupling adjusting part and alloy, stainless steel, aluminium and the alloy thereof; Make insulating material preferably ceramic, the Al of discharge tube
2O
3, a kind of in the bakelite, polytetrafluoroethylene, glass.
Proton translocation ionization mass spectrometer based on microwave plasma source described in the utility model comprises the steam feed system that is used to provide steam, makes steam generate H
3O
+The plasma generator of ion, be used for analyte molecule and H
3O
+The drift tube of ion generation Proton-Transfer Reactions, the mass spectrometer that is used for analyzing and testing and vacuum regulator control system, the steam pipeline of steam feed system is connected with the discharge tube of plasma generator, the discharge tube of plasma generator is connected with drift tube by first joint, drift tube is provided with injection port and is connected with mass spectrometer by second joint, described plasma generator is the microwave plasma generator, comprise microwave generator, the microwave cavity that metal material is made, end cap, tuning plug and microwave coupling adjusting part, the discharge tube that insulating material is made; Be symmetrically arranged with two grooves on the chamber wall of microwave cavity upper end, be symmetrically arranged with two grooves on the tegmental wall of end cap lower end, be installed in the upper end of microwave cavity when end cap after, described four groove combination become two holes that are complementary with discharge tube external shape and size, and described discharge tube passes described two holes and is fixed on the microwave cavity; Microwave generator is connected with the microwave energy input port that is arranged on the microwave cavity sidewall by cable, microwave is coupled to microwave cavity keeps the discharge tube continuous discharge, and microwave coupling adjusting part is installed in the sidewall of microwave cavity; Tuning plug is a screw rod, is installed on the microwave cavity diapire and stretches in the microwave cavity by the screw that is provided with on the microwave cavity diapire.
Proton translocation ionization mass spectrometer based on microwave plasma source described in the utility model, the structure of microwave coupling adjusting part in its microwave plasma generator, the connected mode of end cap and microwave cavity is identical with the above-mentioned microwave plasma generator that is used for the proton translocation ionization mass spectrometer.
Proton translocation ionization mass spectrometer based on microwave plasma source described in the utility model, its vacuum regulator control system is made up of first mechanical pump, second mechanical pump, the 3rd mechanical pump and molecular pump, first mechanical pump is connected with first joint, second mechanical pump is connected with drift tube, the 3rd mechanical pump is connected with mass spectrometric difference vacuum chamber, and molecular pump is connected with mass spectrometric mass analyzer.
The utlity model has following beneficial effect:
1, because the employed frequency of microwave plasma generator microwave that is used for the proton translocation ionization mass spectrometer described in the utility model is between the 300MHz to 300GHz, the most frequently used is 2450MHz, just drop in the absorption band of water, hydrone has strong absorption to microwave energy, protonated and the protonated efficient of generation was very high after hydrone absorbed microwave energy, the raising of the concentration of proton hydrate directly causes the raising of the transformation efficiency of analyte molecule and proton hydrate generation Proton-Transfer Reactions, has finally strengthened mass spectrometric sensitivity.
2, the microwave source operating power of the microwave plasma generator that is used for the proton translocation ionization mass spectrometer described in the utility model is low, be generally a few to tens of watts, air consumption is few, energy consumption is low, the system radiating demand is low, thereby has reduced the requirement to power, working gas of the speed of worsening of proton translocation ionization mass spectrometer thief hatch and proton translocation ionization mass spectrometer.
3, the structure that is used for the microwave plasma generator of proton translocation ionization mass spectrometer described in the utility model, be convenient to regulate microwave energy input size, tuning plug is connected by engage thread with microwave cavity, and the distance between scalable tuning plug and discharge tube is regulated the input impedance of discharge tube.
4, the microwave plasma generator that is used for the proton translocation ionization mass spectrometer described in the utility model is simple in structure, volume is little, in light weight and can under the condition of not destroying system vacuum degree, remove and install easily and quickly, thereby realize having very big advantage aspect on-line monitoring and the instrument miniaturization at the proton translocation ionization mass spectrometer.
5, microwave discharge is to utilize the electromagnetic field of high frequency that gas is excited and produce plasma, because microwave energy penetrates medium, need not built-in electrode, this electrodless discharge plasma source, problems such as restriction of having avoided causing in useful life and sample contamination by electrode sputter, high temperature corrosion, can produce even and pure plasma, and electrodeless structure makes the microwave power of output to concentrate partly, therefore can obtain high density, stable plasma flow.
6, because microwave plasma departs from local thermodynamic equilibrium, make it have higher relatively electron temperature and lower gas temperature, this means that its electron impact ionization ability is strong, excite ability strong to gas.
7, microwave punctures the diffuser efficiency height, can obtain ion, electronics, free radical and the excited state particle of high concentration and high activity, thereby the working gas of the proton translocation ionization mass spectrometer based on microwave plasma source described in the utility model can keep discharge in low pressure under atmospheric pressure, can select multiple gases (as helium, nitrogen, argon gas etc.) as working gas.
8, the ionization technique of the proton translocation ionization mass spectrometer/use based on microwave plasma source described in the utility model belongs to the soft ionization technology, with sample VOCs ionization is single ionic, thereby does not have fragment ion, is easy to mass spectrum identification, do not need the standard items calibration, can be used for absolute measurement.
Proton translocation ionization mass spectrometer based on microwave plasma source described in the utility model, detectable sample gas comprises one or more VOC, and do not need sample is separated, described organic compound substrate concentration is calculated by volume and can be low to moderate part per trillion.
Description of drawings
Fig. 1 is a kind of structural representation that is used for the microwave plasma generator of proton translocation ionization mass spectrometer described in the utility model;
Fig. 2 is the A-A cutaway view of Fig. 1;
Fig. 3 is microwave cavity, the end cap of the microwave plasma generator among Fig. 1, the dismounting and the assembling schematic diagram of discharge tube;
Fig. 4 is the structured flowchart of the proton translocation ionization mass spectrometer based on microwave plasma source described in the utility model;
Fig. 5 is a kind of structural representation of the proton translocation ionization mass spectrometer based on microwave plasma source described in the utility model.
Among the figure, 1-steam feed system, the 11-gas bomb, the 12-pond, the 13-vapor pipe, the 2-plasma generator, the 21-microwave generator, 211-microwave energy input port, the 212-adjusting nut that is coupled, the 213-adjusting screw(rod) that is coupled, the 22-end cap, the groove of 221-end cap lower end tegmental wall, the 23-microwave cavity, the groove of chamber, 231-microwave cavity upper end wall, the 232-screw, the 24-tuning plug, the 25-tuning knob, the 26-discharge tube, 3-first joint, the 31-entrance hole, the 4-injection port, the 5-drift tube, the 51-stainless steel ring, the 52-sealing ring, 53-antistatic ring, 6-second joint, 61-import camera lens, 62-stainless steel orifice plate, the dry pore of 63-, 64-antistatic orifice plate, the 7-mass spectrometer, 71-difference vacuum chamber, the 72-ion lens, 73-ion focusing hole, the 74-mass analyzer, the 75-electron multiplier, 8-vacuum regulator control system, 81-first mechanical pump, 82-second mechanical pump, 83-the 3rd mechanical pump, the 84-molecular pump.
Embodiment
In the present embodiment, structure such as Fig. 1, Fig. 2, shown in Figure 3 of being used for the microwave plasma generator of proton translocation ionization mass spectrometer, comprise microwave generator 21, the microwave cavity 23 that stainless steel is made, end cap 22, tuning plug 24 and microwave coupling adjusting part, the circular discharge pipe 26 of ceramic making; Microwave cavity 23 is a thin cylinder, be symmetrically arranged with two semi-circular recesses 231 on the chamber wall of its upper end, be symmetrically arranged with two semi-circular recesses 221 on the tegmental wall of end cap 22 lower ends, end cap 22 is clamping with the connected mode of microwave cavity 23, be installed in the upper end of microwave cavity 23 when end cap 22 after, described four groove combination become two circular holes that are complementary with the circular discharge external diameter of pipe, and described discharge tube 26 passes described two circular holes and is fixed on the microwave cavity; Microwave generator 21 is connected with the microwave energy input port 211 that is arranged on the microwave cavity sidewall by cable, microwave is coupled to microwave cavity 23 keeps discharge tube 26 continuous discharges, and microwave generator 21 has the commercial goods; Microwave coupling adjusting part is made up of coupling adjusting screw(rod) 213 and coupling adjusting nut 212, coupling adjusting screw(rod) 213 is connected with microwave cavity 23 sidewalls, and with microwave energy input port 211 concentricity lines, coupling adjusting nut 212 is installed on the coupling adjusting screw(rod) 213; Tuning plug 24 is a screw rod, is installed on the microwave cavity diapire and stretches in the microwave cavity by the screw that is provided with on microwave cavity 23 diapires, and the axis normal of tuning plug 24 is in the axis of discharge tube 26.
In the present embodiment, based on the general structure of the proton translocation ionization mass spectrometer of microwave plasma source as shown in Figure 4, comprise the steam feed system 1 that is used to provide steam, make steam generate H
3O
+The microwave plasma generator 2 of ion, be used for analyte molecule and H
3O
+The drift tube 5 of ion generation Proton-Transfer Reactions, the mass spectrometer 7 that is used for analyzing and testing and vacuum regulator control system 8, the steam pipeline of steam feed system 1 is connected with the discharge tube of plasma generator 2, the discharge tube of plasma generator 2 is connected with drift tube 5 by first joint 3, and drift tube 5 is provided with injection port 4 and is connected with mass spectrometer 7 by second joint 6.
Form described proton translocation ionization mass spectrometer each parts structure as shown in Figure 5, below illustrated respectively:
The structure of microwave plasma generator 2 is seen Fig. 1, Fig. 2 and Fig. 3, and is identical with embodiment 1.
The structure of first joint 3 as shown in Figure 5, it is provided with entrance hole 31, H
3O
+Ion is entering the 3 back concentration increases of first joint, and enters drift tube 5 by entrance hole 31.
Vacuum regulator control system 8 is made up of first mechanical pump 81, second mechanical pump 82, the 3rd mechanical pump 83 and molecular pump 84; First mechanical pump 81 is connected with first joint 3, is used to keep steam feed system 1, microwave plasma generator 2 and first joint, 3 desired vacuum degrees; Second mechanical pump 82 is connected with drift tube 5, is used to keep drift tube 5 desired vacuum degrees; The 3rd mechanical pump 83 is connected with the difference vacuum chamber 71 of mass spectrometer 7, is used to keep difference vacuum chamber 71 desired vacuum degrees; Molecular pump 84 is connected with the mass analyzer 74 of mass spectrometer 7, is used to keep mass analyzer 74 desired vacuum degrees.
Proton translocation ionization mass spectrometer based on microwave plasma source described in the utility model can be used for building and various enclosure space (as in the automobile, aircraft passenger compartment, seavan) real-time, the online detection of trace VOCs; The detection of chemical warfare agent; In the bio-pharmaceuticals engineering, the critical stage that VOCs contents level real-time, the on-line tracing low content is assessed the confidence level of this process and determined to finish; Analyze the breathing gas of human body, understand the human body metabolic processes, and disease is carried out early diagnosis.
The utility model is not limited to embodiment mentioned above, and suitable modification of carrying out on architecture basics described in the utility model and optimization are as long as all belong to category of the present utility model in the scope that claim defined.
Claims (8)
1. microwave plasma generator that is used for the proton translocation ionization mass spectrometer, it is characterized in that comprising microwave generator (21), the microwave cavity (23) that metal material is made, end cap (22), tuning plug (24) and microwave coupling adjusting part, the discharge tube (26) that insulating material is made;
Be symmetrically arranged with two grooves (231) on the chamber wall of microwave cavity (23) upper end, be symmetrically arranged with two grooves (221) on the tegmental wall of end cap (22) lower end, after end cap (22) is installed in the upper end of microwave cavity (23), described four groove combination become two holes that are complementary with discharge tube external shape and size, and described discharge tube (26) passes described two holes and is fixed on the microwave cavity;
Microwave generator (21) is connected with the microwave energy input port (211) that is arranged on the microwave cavity sidewall by cable, microwave is coupled to microwave cavity (23) keeps discharge tube (26) continuous discharge, and microwave coupling adjusting part is installed in the sidewall of microwave cavity;
Tuning plug (24) is a screw rod, is installed on the microwave cavity diapire and stretches in the microwave cavity by the screw that is provided with on microwave cavity (23) diapire.
2. the microwave plasma generator that is used for the proton translocation ionization mass spectrometer according to claim 1, it is characterized in that microwave coupling adjusting part is made up of the coupling adjusting screw(rod) (213) and the adjusting nut (212) that is coupled, coupling adjusting screw(rod) (213) is connected with microwave cavity (23) sidewall, and with the concentricity line of microwave energy input port (211), coupling adjusting nut (212) is installed on the coupling adjusting screw(rod) (213).
3. the microwave plasma generator that is used for the proton translocation ionization mass spectrometer according to claim 1 and 2 is characterized in that end cap (22) is clamping or is threaded with the connected mode of microwave cavity (23).
4. proton translocation ionization mass spectrometer based on microwave plasma source comprises the steam feed system (1) that is used to provide steam, makes steam generate H
3O
+The plasma generator of ion (2), be used for analyte molecule and H
3O
+The drift tube (5) of ion generation Proton-Transfer Reactions, the mass spectrometer (7) and the vacuum regulator control system (8) that are used for analyzing and testing, the steam pipeline of steam feed system (1) is connected with the discharge tube of plasma generator (2), the discharge tube of plasma generator (2) is connected with drift tube (5) by first joint (3), drift tube (5) is provided with injection port (4) and is connected with mass spectrometer (7) by second joint (6), it is characterized in that plasma generator (2) is the microwave plasma generator, described microwave plasma generator comprises microwave generator (21), the microwave cavity (23) that metal material is made, end cap (22), tuning plug (24) and microwave coupling adjusting part, the discharge tube (26) that insulating material is made;
Be symmetrically arranged with two grooves (231) on the chamber wall of microwave cavity (23) upper end, be symmetrically arranged with two grooves (221) on the tegmental wall of end cap (22) lower end, after end cap (22) is installed in the upper end of microwave cavity (23), described four groove combination become two holes that are complementary with discharge tube external shape and size, and described discharge tube (26) passes described two holes and is fixed on the microwave cavity;
Microwave generator (21) is connected with the microwave energy input port (211) that is arranged on the microwave cavity sidewall by cable, microwave is coupled to microwave cavity (23) keeps discharge tube (26) continuous discharge, and microwave coupling adjusting part is installed in the sidewall of microwave cavity;
Tuning plug (24) is a screw rod, is installed on the microwave cavity diapire and stretches in the microwave cavity by the screw that is provided with on microwave cavity (23) diapire.
5. the proton translocation ionization mass spectrometer based on microwave plasma source according to claim 4, it is characterized in that microwave coupling adjusting part is made up of the coupling adjusting screw(rod) (213) and the adjusting nut (212) that is coupled, coupling adjusting screw(rod) (213) is connected with microwave cavity (23) sidewall, and with the concentricity line of microwave energy input port (211), coupling adjusting nut (212) is installed on the coupling adjusting screw(rod) (213).
6. according to claim 4 or 5 described proton translocation ionization mass spectrometers, it is characterized in that end cap (22) is clamping or is threaded with the connected mode of microwave cavity (23) based on microwave plasma source.
7. according to claim 4 or 5 described proton translocation ionization mass spectrometers based on microwave plasma source, it is characterized in that described vacuum regulator control system (8) is made up of first mechanical pump (81), second mechanical pump (82), the 3rd mechanical pump (83) and molecular pump (84), first mechanical pump (81) is connected with first joint (3), second mechanical pump (82) is connected with drift tube (5), the 3rd mechanical pump (83) is connected with the difference vacuum chamber (71) of mass spectrometer (7), and molecular pump (84) is connected with the mass analyzer (74) of mass spectrometer (7).
8. the proton translocation ionization mass spectrometer based on microwave plasma source according to claim 6, it is characterized in that described vacuum regulator control system (8) is made up of first mechanical pump (81), second mechanical pump (82), the 3rd mechanical pump (83) and molecular pump (84), first mechanical pump (81) is connected with first joint (3), second mechanical pump (82) is connected with drift tube (5), the 3rd mechanical pump (83) is connected with the difference vacuum chamber (71) of mass spectrometer (7), and molecular pump (84) is connected with the mass analyzer (74) of mass spectrometer (7).
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CN2011200147879U CN201918358U (en) | 2011-01-18 | 2011-01-18 | Microwave plasma generator and proton transfer ionization mass-spectrometer |
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Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN102103970A (en) * | 2011-01-18 | 2011-06-22 | 四川大学 | Microwave plasma generator and proton transfer mass spectrometer |
CN109874222A (en) * | 2017-12-06 | 2019-06-11 | 清华大学 | A kind of processing method of drift tube, draft tube linac and drift tube |
RU2772818C1 (en) * | 2021-04-29 | 2022-05-26 | Федеральное государственное бюджетное учреждение науки Институт аналитического приборостроения Российской академии наук | Apparatus for receiving and transporting a proton beam under atmospheric pressure |
-
2011
- 2011-01-18 CN CN2011200147879U patent/CN201918358U/en not_active Expired - Lifetime
Cited By (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN102103970A (en) * | 2011-01-18 | 2011-06-22 | 四川大学 | Microwave plasma generator and proton transfer mass spectrometer |
CN102103970B (en) * | 2011-01-18 | 2013-08-14 | 四川大学 | Microwave plasma generator and proton transfer mass spectrometer |
CN109874222A (en) * | 2017-12-06 | 2019-06-11 | 清华大学 | A kind of processing method of drift tube, draft tube linac and drift tube |
CN109874222B (en) * | 2017-12-06 | 2022-10-25 | 清华大学 | Drift tube, drift tube linear accelerator and drift tube processing method |
RU2772818C1 (en) * | 2021-04-29 | 2022-05-26 | Федеральное государственное бюджетное учреждение науки Институт аналитического приборостроения Российской академии наук | Apparatus for receiving and transporting a proton beam under atmospheric pressure |
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